Kim Hadfield

Title: Kim Hadfield: Innovator in Television Viewership Technology

Introduction

Kim Hadfield is a prominent inventor based in Vancouver, WA (US). She has made significant contributions to the field of television viewership technology, holding a total of five patents. Her work focuses on improving the accuracy of television viewing behavior data, which is crucial for understanding audience engagement.

Latest Patents

One of Kim Hadfield's latest patents is titled "Aggregation-based methods for detection and correction of television viewership aberrations." This invention contemplates the use of aggregated television viewing behavior data collected from multiple set-top boxes. The goal is to detect discrepancies in viewership, whether excess or deficit, for a group of set-top boxes associated with a specific television service provider. The system can also clean the data by identifying and correcting aberrant viewership patterns over time.

Another notable patent is "Systems and methods compensating for set-top box overflow." This invention addresses issues that can arise in television viewing behavior data, such as memory buffer overflows and non-human generated tuning events. By cleaning the data, the system enhances the accuracy of audience viewing behavior analysis, providing more reliable insights than uncleaned data.

Career Highlights

Throughout her career, Kim has worked with notable companies, including Rentrak Corporation and Chrome Systems Corporation. Her experience in these organizations has allowed her to develop innovative solutions that address challenges in television viewership data.

Collaborations

Kim has collaborated with talented individuals in her field, including Amir Yazdani and Michael J Vinson. These partnerships have contributed to her success and the advancement of her inventions.

Conclusion

Kim Hadfield is a trailblazer in the realm of television viewership technology. Her patents reflect her commitment to enhancing data accuracy and improving audience analysis. Through her innovative work, she continues to shape the future of television viewership.